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Individual size but not additional nitrogen regulates tree carbon sequestration in a subtropical forest.


ABSTRACT: Recent studies have indicated that tree carbon accumulation in subtropical forests has been negatively affected by global change phenomena such as warming and drought. However, the long-term effect of nitrogen addition on plant carbon storage remains poorly understood in these regions. In this study, we conducted a 10-year field experiment examining the effect of experimental N addition on plant growth and carbon storage in a subtropical Chinese fir forest. The N levels were 0 (control), 60, 120, and 240?kg ha-1 yr-1, and the N effects on tree carbon were divided into stand and individual levels. The results indicated that tree carbon storage at the stand scale was not affected by long-term N addition in the subtropical forest. By contrast, significant impacts of different tree size classes on carbon sequestration were found under different N treatments, which indicated that the amount of plant carbon sequestration was significantly enhanced with tree size class. Our findings highlight the importance of community structure and growth characteristics in Chinese fir forests, in which individual size but not additional N regulates tree carbon sequestration in this subtropical forest.

SUBMITTER: Wu J 

PROVIDER: S-EPMC5397863 | biostudies-other | 2017 Apr

REPOSITORIES: biostudies-other

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Individual size but not additional nitrogen regulates tree carbon sequestration in a subtropical forest.

Wu Jianping J   Duan Honglang H   Liu Wenfei W   Wei Xiaohua X   Liao Yingchun Y   Fan Houbao H  

Scientific reports 20170420


Recent studies have indicated that tree carbon accumulation in subtropical forests has been negatively affected by global change phenomena such as warming and drought. However, the long-term effect of nitrogen addition on plant carbon storage remains poorly understood in these regions. In this study, we conducted a 10-year field experiment examining the effect of experimental N addition on plant growth and carbon storage in a subtropical Chinese fir forest. The N levels were 0 (control), 60, 120  ...[more]

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